Chapter 13 Sets and Maps

1. Modified Chapter 13 Sets and Maps

2. Chapter Scope • The Java API set and map collections • Using sets and maps to solve problems • How the Java API implements sets and maps • Hashing Java Software Structures, 4th Edition, Lewis/Chase

3. Sets • A setis a collection of elements with no duplicates • No other relationship among the elements should be assumed • A primary purpose of a set is to determine whether a particular element is a member • Other collections (such as lists) can test for containment, but if that operation is important, consider using sets Java Software Structures, 4th Edition, Lewis/Chase

4. xxx • Operations on a set: Java Software Structures, 4th Edition, Lewis/Chase

5. Sets • Operations on a set, continued: Java Software Structures, 4th Edition, Lewis/Chase

6. Maps • A map is a collection that establishes a relationship between keys and values • The goal is to have an efficient way of obtaining a value given its key • Keys of a map must be unique, but multiple keys could map to the same object • For example, a membership id (a String) could be the key used to retrieve a member (a Member object) Java Software Structures, 4th Edition, Lewis/Chase

7. Maps • Operations on a map: Java Software Structures, 4th Edition, Lewis/Chase

8. Maps • Operations on a map, continued: Java Software Structures, 4th Edition, Lewis/Chase

9. Using Sets • Let's use a set to test for containment • In particular, we'll create a set of web domains that will be blocked • The blocked domains will be held in an input file • The set is represented using a TreeSet object from the Java API Java Software Structures, 4th Edition, Lewis/Chase

10. import java.io.File; import java.io.FileNotFoundException; import java.util.Scanner; import java.util.TreeSet; /** A URL domain blocker. */ public class DomainBlocker { private TreeSet<String> blockedSet; /** Sets up the domain blocker by reading in the blocked domain names from * a file and storing them in a TreeSet. * @throws FileNotFoundException */ public DomainBlocker() throws FileNotFoundException { blockedSet = new TreeSet<String>(); File inputFile = new File("blockedDomains.txt"); Scanner scan = new Scanner(inputFile); while (scan.hasNextLine()) { blockedSet.add(scan.nextLine()); } } Java Software Structures, 4th Edition, Lewis/Chase

11. /** * Checks to see if the specified domain has been blocked. * * @param domain the domain to be checked * @return true if the domain is blocked and false otherwise */ public booleandomainIsBlocked(String domain) { return blockedSet.contains(domain); } } Java Software Structures, 4th Edition, Lewis/Chase

12. import java.io.FileNotFoundException; import java.util.Scanner; /** Domain checking driver. */ public class DomainChecker { /** * Repeatedly reads a domain interactively from the user and * checks to see if that domain has been blocked. */ public static void main(String[] args) throws FileNotFoundException { DomainBlocker blocker = new DomainBlocker(); Scanner scan = new Scanner(System.in); String domain; Java Software Structures, 4th Edition, Lewis/Chase

13. do { System.out.print("Enter a domain (DONE to quit): "); domain = scan.nextLine(); if (!domain.equalsIgnoreCase("DONE")) { if (blocker.domainIsBlocked(domain)) System.out.println("That domain is blocked."); else System.out.println("That domain is fine."); } } while (!domain.equalsIgnoreCase("DONE")); } } Java Software Structures, 4th Edition, Lewis/Chase

14. Using Maps • Now let's look at an example using maps to keep track of product sales • Suppose that each time a product is sold, its product code is entered into a sales file • Our example will read the sales file and update product sales summary • A TreeMap will be used to map the product code to the Product object Java Software Structures, 4th Edition, Lewis/Chase

15. /** Represents a product for sale. */ public class Product implements Comparable<Product> { private String productCode; private intsalesCount; // Number of items sold /** * Creates the product with the specified code. * * @paramproductCode a unique code for this product */ public Product(StringproductCode) { this.productCode = productCode; this.salesCount= 0; } Java Software Structures, 4th Edition, Lewis/Chase

16. /** * Returns the product code for this product. * * @return the product code */ public String getProductCode() { return productCode; } /** * Increments the sales of this product. */ public void incrementSales() { salesCount++; } Java Software Structures, 4th Edition, Lewis/Chase

17. /** * Compares this product to the specified product based on the * product code. * @param other the other product * @return an integer code result */ public intcompareTo(Productobj) { return productCode.compareTo(obj.getProductCode()); } /** * Returns a string representation of this product. * * @return a string representation of the product */ public String toString() { return productCode + "\t(" + salesCount+ ")"; } } Java Software Structures, 4th Edition, Lewis/Chase

18. import java.io.File; import java.io.IOException; import java.util.Scanner; import java.util.TreeMap; /** Demonstrates the use of a TreeMap to store a sorted group * of Product objects. */ public class ProductSales { /** Processes product sales data and prints a summary sorted by * product code. */ public static void main(String[] args) throws IOException { // Construct a map for product data – key is product code TreeMap<String, Product> sales = new TreeMap<String, Product>(); // Read product code for each sale transaction Scanner scan = new Scanner(newFile("salesData.txt")); String code; Product product; Java Software Structures, 4th Edition, Lewis/Chase

19. while (scan.hasNext()) { code = scan.nextLine(); product = sales.get(code); if (product == null) // Product not in map yet sales.put(code, new Product(code)); else // Product is in map product.incrementSales(); } // Print out product info for all products in map System.out.println("Products sold this period:"); for (Product prod : sales.values()) System.out.println(prod); } } Java Software Structures, 4th Edition, Lewis/Chase

20. Using Maps • Another example using maps, stores user information which can be retrieved by a user id • This time, a HashMap is used to store the users Java Software Structures, 4th Edition, Lewis/Chase

21. /** Represents a user with a userid. */ public class User { private String userId; private String firstName; private String lastName; /** * Sets up this user with the specified information. * * @paramuserId a user identification string * @paramfirstName the user's first name * @paramlastName the user's last name */ public User(StringuserId, String firstName, String lastName) { this.userId = userId; this.firstName = firstName; this.lastName = lastName; } Java Software Structures, 4th Edition, Lewis/Chase

22. /** Returns the user id of this user. */ public String getUserId() { return userId; } /** Returns a string representation of this user. */ public String toString() { return userId + ":\t" + lastName + ", " + firstName; } } Java Software Structures, 4th Edition, Lewis/Chase

23. import java.util.HashMap; import java.util.Set; /** Stores and manages a map of users. */ public class Users { // A hashmap to store users private HashMap<String, User> userMap; /** Creates a user map to track users. */ public Users() { userMap = new HashMap<String, User>(); } /** Adds a new user to the user map. */ public void addUser(User user) { userMap.put(user.getUserId(), user); } Java Software Structures, 4th Edition, Lewis/Chase

24. /** Retrieves and returns the specified user. */ public User getUser(StringuserId) { return userMap.get(userId); } /** Returns a set of all user ids. */ public Set<String> getUserIds() { return userMap.keySet(); } } Java Software Structures, 4th Edition, Lewis/Chase

25. import java.io.IOException; import java.util.Scanner; /** Demonstrates the use of a map to manage a set of objects. */ public class UserManagement { /** Creates and populates a group of users. Then prompts for * interactive searches, and finally prints all users. */ public static void main(String[] args) throws IOException { // Construct and populate a new instance of users Users users = new Users(); users.addUser(newUser("fziffle", "Fred", "Ziffle")); users.addUser(new User("geoman57", "Marco", "Kane")); users.addUser(new User("rover322", "Kathy", "Shear")); users.addUser(newUser("appleseed", "Sam", "Geary")); users.addUser(new User("mon2016", "Monica", "Blankenship")); Scanner scan = new Scanner(System.in); String uid; User user; Java Software Structures, 4th Edition, Lewis/Chase

26. do { // Read a uid from keyboard System.out.print("Enter User Id (DONE to quit): "); uid = scan.nextLine(); if (!uid.equalsIgnoreCase("DONE")) { user = users.getUser(uid); if (user == null) // uid not found as a key System.out.println("User not found."); else // uid used to retrieve user info System.out.println(user); } } while (!uid.equalsIgnoreCase("DONE")); // print all info for all users System.out.println("\nAll Users:\n"); for (String userId : users.getUserIds()) System.out.println(users.getUser(userId)); } } Java Software Structures, 4th Edition, Lewis/Chase

27. Implementing Sets and Maps • The TreeSet and TreeMap classes use an underlying tree to hold the elements of the set or map • These trees are binary search trees, and in particular are red-black balanced trees • All of the basic operations are performed with O(logn) efficiency Java Software Structures, 4th Edition, Lewis/Chase

28. Implementing Sets and Maps • The HashSet and HashMap classes are implemented using a technique called hashing • An element in a hash table is stored in a location based on a hash function • A hash function makes some calculation based on the element itself • Multiple elements may hash to the same location (which is called a collision) • A function that maps each element to a unique location is called a perfect hashing function Java Software Structures, 4th Edition, Lewis/Chase

29. Hashing • A hash table with a simple hash function based on the first letter of the string: • Collisions could be managed using a list of A names, a list of B names, etc. Java Software Structures, 4th Edition, Lewis/Chase